Litcius/Paper detail

Dietary medium-chain triacylglycerols in metabolic regulation

Ye Cao, Josephine M. Kanta, Christopher A. Bishop, Bente Kiens, Andreas M. Fritzen, Maximilian Kleinert

2025Trends in Endocrinology and Metabolism13 citationsDOIOpen Access PDF

Abstract

Dietary medium-chain triacylglycerols (MCTs; C8:0-C12:0) are absorbed and utilized differently compared with long-chain fats. They directly enter the portal vein as free medium-chain fatty acids, most of which are converted to ketone bodies in the liver, with a significant proportion entering the circulation. Accumulating evidence links MCT intake to improved glucose homeostasis; increased energy expenditure and satiety with concomitant modest weight loss; and chain length-dependent modulation of circulating lipoprotein profiles and liver metabolism. Emerging data also suggest direct benefits for cardiac contractility, hinting at a broader cardiometabolic advantage. Here, we synthesize the current evidence, outlining how MCTs influence cardiometabolic health. We further discuss mechanistic insights, from cellular substrate partitioning and mitochondrial dynamics to gut-liver signaling to propose mechanisms of MCT action.

Topics & Concepts

Ketone bodiesInternal medicineEndocrinologyChemistryBiochemistryEnergy expenditureMetabolismBiologyCholesterolMetabolic syndromeLipid metabolismLipoproteinTriglycerideMetabolic pathwaySubstrate (aquarium)Fatty liverMitochondrionMetabolic regulationEnergy metabolismGlycolysisEnzymeAcyl-CoAPortal veinConcomitantDiet, Metabolism, and DiseaseDiet and metabolism studiesFatty Acid Research and Health